Neuropathy is a disease of the peripheral nervous
system. Many people with diabetes eventually develop nerve damage. The three
major forms of nerve damage are: peripheral neuropathy, autonomic neuropathy,
and mononeuropathy. The most common form is peripheral neuropathy, which
mainly affects the feet and legs.

Besides diabetes, the common causes of neuropathy
are herpes zoster infection, chronic or acute trauma (including surgery)
and various neurotoxins. Neuropathic pain is common in cancer as a direct
result of the cancer on peripheral nerves (e.g., compression by a tumor)
and as a side effect of many chemotherapy drugs.

Neuropathy often results in numbness, abnormal
sensations called dysthesias and allodynias that occur either spontaneously
or in reaction to external stimuli, and a characteristic form of pain, called
neuropathic pain or neuralgia, that is qualitatively different from the ordinary
nociceptive pain one might experience from stubbing a toe or hitting a finger
with a hammer. Neuropathic pain is usually perceived as a steady burning
and/or "pins and needles" and/or "electric shock" sensations. The difference
is due to the fact that "ordinary" pain stimulates only pain nerves, while
a neuropathy often results in the firing of both pain and non-pain (touch,
warm, cool) sensory nerves in the same area, producing signals that the spinal
cord and brain do not normally expect to receive.

Treatment of Neuropathic
Pain

Neuropathic pain can be very difficult to treat;
even strong opioid analgesics may provide only partial relief. However, several
classes of medications not normally thought of as analgesics are often effective,
alone or in combination with opioids and other treatments. These include
tricyclic antidepressants such as amitriptyline (Elavil®) and anticonvulsants
such as gabapentin (Neurontin®).

The mechanisms of action of these two classes
of drugs on neuropathic pain is not fully understood, but they seem to be
independent of their actions on depression and seizures, respectively.
Neuropathic pain usually responds more quickly, and to much smaller doses
of the tricyclics than are needed to treat depression, but the newer selective
serotonin reuptake inhibitor antidepressants seem to work poorly, if at all,
on neuropathic pain. Since the SSRIs only affect serotonin, this has led
to the theory that tricyclics reduce neuropathic pain by working on a
neurotransmitter other than serotonin. The most likely candidate is
norepinephrine, lent weight by the discovery that bupropion (Wellbutrin®),
an atypical antidepressant that inhibits the reuptake of norepinephrine,
is also effective in many cases of neuropathic pain.

In some forms of neuropathy, especially post-herpes
neuralgia, the topical application of local anesthetics such as lidocaine
can provide relief. A transdermal patch containing 5% lidocaine is available.
Ketamine in a transdermal gel is also frequently effective when the neuropathy
is localized.

In some neuropathic pain syndromes, "crosstalk"
occurs between descending sympathetic nerves and ascending sensory nerves.
Increases in sympathetic nervous system activity result in an increase of
pain; this is known as sympathetically-mediated pain. Reducing the sympathetic
nerve activity in the painful region with local nerve blocks or systemic
medications such as clonidine may provide relief. The NMDA receptor seems
to play a major role in neuropathic pain and in the development of opioid
tolerance, and many experiments in both animals and humans have established
that NMDA antagonists such as ketamine and dextromethorphan can alleviate
neuropathic pain and reverse opioid tolerance. Unfortunately, only a few
NMDA antagonists are clinically available and their use is usually associated
with unacceptable side effects.

Several opioids, particularly methadone, have
NMDA antagonist activity in addition to their ?-opioid agonist properties
that seems to make them effective against neuropathic pain, although this
is still the subject of intensive research and clinical study. Methadone
has this property because it is a racemic mixture; one stereo-isomer is a
?-opioid agonist; the other is a NMDA antagonist.

The information above is not intended
for and should not be used as a substitute for the diagnosis and/or treatment
by a licensed, qualified, health-care professional. This article is licensed
under the GNU Free Documentation
License. It incorporates material originating from the Wikipedia article
"Neuropathy".